Electric power assistor



May 22, 1951 E. G. STAUDE 2,553,795

ELECTRIC POWER ASSISTOR Filed July 29, 1948 4 Sheets-Sheet l May 22, 1951 E. G. STAUDE 2,553,795

ELECTRIC POWER ASSISTOR Filed July 29, 1948 4 Sheets-Sheet 2 INVENTOR Ed wzl/1, b'aadfe ATTOR EY May 22, 1951 E. G. sTAUDE 2,553,795

ELECTRIC POWER ASSISTOR Filed July 29, 1948 4 Sheets-Sheet 3 1:1. 1:1. El. 63 60 m A' c B'D' 90 INVENTOR Edwin ,Saucle WK ATTO NEY May 22, 195l E E. G. STAUDE 2,553,795

ELECTRIC POWER ASSISTOR Filed July 29, 1948 4 Sheets-Sheet 4 IIIIIIIIIIP INVENTOR ATTO N'EY Patented lMay 22, 1951 Erl-norme Pewne s'sfsrolt Edwin@ Stande, Minneapolis, Minnf Appiiestitn- Juiy 29, 194s,- 'serial N.- 415287 16 eiaims..

My invention relates to apparatus for apply;- ing power generally, as for s'teeringjsliafts inmotor cars, trucks,- busses or other vehicles, and which may be constructed so that it operates when required while at other times being ina` tive without influence on the position of the steering Wheel shaft.

In carrying out my'- inventiom I may use an electric batteryA ori other source of power., 'so that my device is not' necessarily depen-dent'on engine speeds for th'e' operation of pumps, which require toy be governor-'controlled because of variablev engine speeds and variable power demand. In my device, because of its high eiiiciency,l only' a minimum of power lfrom. a battery current is required. Y Y

My invention is anim'lzsrove'ment,` therefore, over previous devices that use air, vacuum or liquid pressure, all of which must be displaced in the cylinders upon' every movement of the steering wheel, thereby producing a resistance that prevents the free oastering f the steering ground wheels that are' constantly being urgedtoA advance in a straight line on motor cars,y on; which m'u'chv research has been done. Ver-y few vehicles require power' steering assistance when traveling in a straight line` and it usually is only when making short turns;- or parking', or backing up7 or' when turning the wheels while the vehicle is standing still, that power steering is iin' portant, or necessary, especially with the present trend towardsl wide tires with low air pressures,

One of the primary objectsY of my invention is to provide complete freedom of the steering wheel and steering shaft from anyr power steering device during normal driving and so as to avoidl interference in any wayv with the free castering of the front wheels, and so as to obviate any ,lost motion.

A further object of my invention is to provide an assistor that is normally completely inactive in every Way, and which' preferably only becomes active when an overload develops on the steering wheel shaft.

A f urther object of my invention is to provide a ball or roller clutch engaging4 mechanism thatv will not engage unless the speedV reducing gear of the electricmotor is in motion. l

Another object is to provide; an` assistor that will at all times ,remainv disconnected from the steering wheel shaft in the event of a power fail-ure or ign the event the assister becomesA in; operative;

A further object is to simplify the construction (o1. uff-ass) and reduce the cost of the assistor, while at the.

same timev greatly improving its perforinance,v

Still another object is toi reduce the required amount of the torque exerted by speeding up the assister through the attachment of the same to the steering wheel shaft near the steering. wheel gear mechanism, inasmuch as the said shaft' in most' cases revolves about four times to. produce a 60l degree movementV to the steering cross shaft.

A further object' is to provide a mechanism that will respond instantly and revolve in either' direction for steering tol the' right or left underl the full and instant control of the' steering wheel when subject to an overload.

Furthermore; because a steering assister ordinarily'- is used so briefly, as well as intermittently and infrequently, I have found that the battery drain for the fractional horse power required is insignificant and that, therefore, with th use of the battery on the vehicle as a source of power I am able to dispense with all pumps, compressors; receivers,- unloading valves and the' other equip;V ment necessary when using air; vaculir'nA or liquid for the source of pressure.

By providing a small worm` Wheel on the motor shaft that meshes into a large wo'rri'i Avs'lieell mounted nthe hub of the transmission case,

which large worm wheelz when active at a maximum speed or only` forty revolutions Aper minute, a speed which is somewhat faster than the speed of a steering wheel',l the steering mche@v nisrri can be readily operated.

Because of the slow speed of large worir wheel and because the motorsliaft is notifie' to full speed when the clutches engage, there' whether" for automotive aircraft or' other' purr My invention will be fully u nderstolodby re'ifer-vvv ence' to' the following drawings; which,`

Fig'.` r is' avertieallenga nel' throughE the center 'of a' steering gear mechanism to whieli my inventiorri's applied.;-

Fig. 2 is la cross; section taken on line 22 o Fig-. 1*,'1o`oki1rig in the sir'enbn of triie er' Fig.v 3i`s a vertical section tekenn on line 'l' 3 Fig. 4 is a horizontal section taken on line 4-4 of Fig. 3;

Fig. 5 is a vertical section taken on line 5-5 of Fig. 3;

Fig. 6 is a horizontal section taken on line 6-6 of Fig. 3;

Fig. 7 is a diagram of the wire connections between the motor and the reversing switches;

Fig. 8 is adiagram showing the clutch action for steering to the right; i

Fig. 9 is a diagram showing the clutch position for normal driving Without overload on the steering wheel;

Fig. 10 is a, diagram showing the clutch action for steering to the left;

Fig. 11 is a diagrammatic vieW showing the position of the ball clutch for steering to the right;

Fig. 12 is a diagrammatic View showing the position of the ball clutch when being held free from action;

Fig. 13 is a diagrammatic view showing the position of the ball clutch for steering to the left; and

Fig. 14 is a diagrammatic view showing the position of the ball clutch When being held free from action.

.Referring to the drawings, it will be noted that in the event of a power failure all the clutches are free to move with the steering gear in either direction. Also, when no overload exists on the steering Wheel all of the ball clutches remain disconnected from the worm wheel in either direction.

In the drawings, I have shown a transmission casing 2 enclosing a steering gear worm 3 splined on a stub shaft 4.

The worm 3 operates a cross shaft 5 of the usual type, by means of a bifurcated arm 5a carrying an antifriction wheel 5b meshing with the worm 3. The steering gear worm 3 is mounted in taper bearings 6 and 6a, which also act as a support for the stub shaft 4.

The casing 2 is provided with an internal hub 1 adapted to receive a ball bearing 8. The outer race of the ball bearing 8 supports a hub 9 of a` worm wheel I and is held in position by a retainer ring I I in the hub 9.

vThe worm wheel vII) meshes with a worm I2 formed integrally on a shaft I3 which is mounted in ball bearings I4 and I5 in the casing 2.

The outer end of the shaft I2 is splined to receive a motor drive shaft I6 of a reversible motor I1 (see Fig. 2).

The inner surface I8 of the Worm wheel IU is grooved to retain locking ball clutches in tapered recesses I9 as follows: These locking ball clutches are six in number.v Three of them, 20, 2| and 22, are for Aengaging when motion is desired for aright turn, and the three other ball clutches, 23, `24 and 25, are for engaging when motion is desired for a left turn. The tapered recesses I9 forv the different ball clutches kare located in a member 26, which is splined to the shaft 4 at 21 and held in locked position by a split ring 28 against which the member is clamped by the Worm 3.

The split ring 28 ts into a groove 29 between the splines 21 and splines 30 and is kept in position by a hub extension 3l on the member 26.

The member 26 also has a hub extension 32, which is provided with a retainer ball race 33 to receive balls 34. The balls 34 also support an arm-carrying member 35 having a flange 36.

The flange 36 supports rigidly three armsV 31,

4 38 and 39 for controlling the motion thereof to the right and arms 46, 4I and 42 for controlling the clutches for engagement for motion to the left (see Fig. 2).

The normal position, Without overload on the steering wheel shaft 5, of the arms 31, 38, 39, 40, 4I and 42 is to prevent any of the ball clutches 26, 2|, 22, 23, 24 and 25 from engaging the inner surface I8 of the worm wheel I0 against the tension of springs 43 in the lmember 26 so that the mechanism between the steering wheel shaft 5 and the worm wheel I0 is normally disengaged from the worm wheel I0, the worm I2 and the motor I1, during which time the motor I1 is also inactive.

Referring more particularly to Fig. 2, when an overload develops on the steering wheel shaft 5 and assistance is desired, a difference in motion described hereinafter is developed and the arms 31, 38 and 39 move for engaging motion to the right, and to release the balls 20, 2| and 22 into clutch engagement with the surface I8 on the worm wheel I0 by the action of the springs 43, because of the inclined surfaces I9 and thesurface I8 on the worm wheel IIJ.

During the movement of the arms 31, 38 and 39 to the right the arms 40, 4I and 42 will further compress the springs 43 by moving the clutch balls 23, 24 and 25 against the springs 43.

This is necessary because `of the need to keep the assistor disengaged in normal operation when the assistor is not needed and also to keep the assistor disengaged for either motion to the right or left when the assistor becomes inoperative for any reason, which otherwise would lock the worm Wheel I0 with the worm I2, but still permit the steering wheel and shaft 5 to operate without the assistor, a, most important feature.

The control of the mechanism previously described is accomplished by a steering wheel shaft 44, having a splined extension 45 and a reduced end pilot bearing 46 operating in a needle bearing 41, which is mounted in an end 48 of the stub shaft 4 (see Fig. l). A lost motion coupling sleeve member 49 is mounted on the splines 30 and is kept in engagement with a cylindrical lost motion coupling member 50 by a spring 5I bearing against the sleeve member 49 and the member 26 (see Fig. 1).

Rotary motion in either direction of the cylindrical member 56, by reason of the spline 45 is conducted to the flange 36 by pins 52 riveted into the flange 36 and slidable inY engaging arms 53, 54 and 55. The result of this is'that frnotion in either direction of the steering wheel shaft 44 is transmitted directly to the flange 36 and the arms 31, 38, 39, 40, 4I and 42 for the purpose hereinbefore described.

The lost motion coupling members 49 and 50 are also kept in normal contact in motion in either direction by the action of the spring 5I bearing against the tapered jaw clutches 56 on the member 58 and corresponding recesses 51 on the member 49. l

The recessY 51 onA the member 49 is wider than the tapered jaw clutch 56 on the member 59 so that because of the inclined surface of the tapered jaw clutch 56 bearing against a similar taper in the recess 51'on the member 49, these inclined surfaces will, when overloaded, force the two members 49 and 59 apart against the spring 5I and cause a differential of rnotion between the members 49 and 50 but not between the member :58 and the flange 36. 1

The action of.; the dii-Terential.motion-.between the; members 4.9. and 511 is shown in. Figs. `8, 9: and 10, wherein Fig. 8. shows the relative .position of the.. two members. for a. right: turn, Fig. 9. showsY the normal positioning or without.. assistor. posi-i tion, and Fig. l shows the relative position of.

the two members for a left turn of thev steering wheel shaft. 44.vv x

For controlling the electric.` circuit. to. the'. motor H., the sleeve member 49. is. providedV with an armA 6.0.,` which arm B is provided with a riveted extension nin 6l at its outer end.

The pin 6l engages. a slot, 6.2. of a nonfconff ducting;` hre blockt slidableon a guide shaft; 6.4..

.The guide Shaft 64: is; mouilltedin a. composite.

Thev two block portions 5.5 and Sii are connected .s

by a bar-like side portion 10.

The, slidable block 63 is, furthermore, provided with a plunger H having a flange l2 anda guide extension T3, and the flange 'i2 is held against a stop 'i4 by a spring 15. which bears against the nar-ige 'l2 and a screwed in plug 16;.

When the block 63 is moved so that the plunger- 'H contacts the pins C, D this circuit will be closedfor left turn4 because the block 63 is held stationary by the. pin; 5l on thev arm t!! while the member 50 turns anti-clockwise and contacts thev pins. C and D.

Al similar plunger 11- is provided in the fibre block 63 on the opposite side. A has av flange i3 and a guide extension pin- 19. The flange 18 is held against a stop 8l?, by a spring 8l which bears against the flange i8A and a screwed in plugv 82.

rIhus, when the steering'wheel shaft 4d is moved clockwise becauseof overload to the right, the block 63 being held by the pin E! on the arm 6U, theplunger Ti will close the electric contact pins AA and E'v when the plunger Tl. comes in contact.

Having described the makingy and breaking electric circuit, I Will. now describe the circuit4- leading from this point to: the reversible electricmotor l1.

An. annular non-conducting-nbre sleeve 9i) is tted. over the member 5i! and held in position thereon by screws 91.

The sleeve 99 is provided with four annular' conductor rings which are referenced with the letters A", B', C' and D3'. The. pin. C' is connected to the annular ring' C" and the. pinv Dl is. connected to the annular ring D?. Likewise, the: pin A is, connected to the annulary ring A andv the pin B is connected to the annular ring B.

The. connection may be made in various ways,

The plunger TI- but Ihave. shown a', preferred. way of accomplshing this in Fig. 6, in. which. a hole 92 is drilledy into thev rim of the sleeve below the conductor rings in a manner to. contactvv the particular con-.- ductor ring D at the top', in Fig. 6, and the conductor ring, C. at the underside, both preferably with. silver solder. Y up between the. sleeve 90. and a, collar 93 and secured around four screws 924, respectively, to. which are also secured the wire ends, respectively, fromv the. switch contacts; A,Y B, ancLD.

In order to conductv the current whenY the cir#` cuit is closed from the annular ring-s A', B. C

andlj IY provide carbon pluri-gers S5., cach hav-y 'Ihe wire ends are brought.

6. ing arrenlarged. portion 96 tobear against a stop' 9T whenfully extended.

Each of the carbon plungers has: a spring Q8. which keeps; the carbon plunger 95; in contact with its particular annular ring. Each plunger 95, 96., with its spring 98, is enclosed in a cylin-` drical holder Q9 and the holders $9. are secured inra. removable plate lill); Each. holder 99.V is properly insulated from the plate |530 by an insulating. sleeve mim and is held in place by a threaded Vnut lilb which drawsl the holder 99 against a flange IUI thereon and also secures in place thewires from the respective terminals.

plug m2 screwed into thetopo each holderv 9 3 holds the springY 9 8 compressed against the: plunger S6.

All of the holders Afor the four carbon brushes are alike and serve to pickup they current from the annular rings-, regardless of the position of the. switch block 63, which revolves with thesteering wheel shaft 44.

The wires on the reverse motor I'G are shownas connected to terminals: A", B for the right turn and to terminals 0"', D" for the lett tur-ir.v This, of course, depends o n the direction of the worin pitch l2, which. in the drawing is provided withv a right hand thread. It. is a matter Qt merely reversing the wires, as shown in Fig, 7, to reverse the motor, to cause it to respond in the proper rotation with the steer-ing Wheel shaftl yI-n order to relieve the end thiustof the.y spring 5! against the members 49v and 5tv I provide a thrustv bearing HEB; for the,l member 5B' and a ring il I` which in turn bears against a wall H2 of aside casing H3 secured tothe casing 2" by screws. H4'.

An annular balll bearing H5 is provided in a' hub I'IB of the casing [I3` for supporting the steering shaft 44'.

The steering shaft 44 isV held in position, furthermore, by a split ring Il'l, which nts into. a groove H8 in the shaft 44. The split ring H8 is held in place by the ring l I l.

A cap |I.9 secured. by bolts |20 holds thebearing II5 in positionv and also` provides. an anchor for; a steering post tube I2I. and a packing ring I2 In practice the mechanism described can be more compact, but is drawn somewhat diagrammatically and somewhat enlarged for. clarity herein.

In the operation, when turning the steeringV` Wheel' to turn the steering wheel shaft 44 clockwise to the right, Iat the upper' portion of Fig; 2, the circuit is closed between the contact points A and B, causing the motor Il to start up to turn the worm Wheel I0 clockwise in Fig. 2.

At the same time, the arms 31, 38 and 39 will move into the position shown in Fig. 11. and instantly permit the'y engagement of the clutch balls 20, 2`I and 22 to engagev the surfaces I8 and i9, and lock the member 26 to the worm wheel I0.

This action does not take. place in the form of a shock because first the degree of movement of.

the a'rmsy 3T, 38 and 39 permitsV a slipping ac.-

motor which will also hesitate slightly when it.

picks up the load. Since the preferred speed of vthe worm wheel I'U isv only 40 revolutions per minute, no substantiar shock can possibly occur through the' action of-` thev ball clutches. The member 26 being splined to the stub shaft 4 through' the spline 28, the electric assister adds' tof theV power; exerted manually and is` instantly` clutch balls 23, 24 and 25 will be in the position shown in Fig. 12. i

When the steering wheel and shaft 44 are moved counterclockwise or towards the left the contact points C, D are closed, which will start up the motor i6 in reverse direction to the right hand steering and the arms 4U, 4l and 42 will be in the position shown in Fig. 13, therebylocking the clutch balls 23, 24 and 25 to the worm wheel I and the member 26 because of the wedge action between the surfaces i3 and I9 and the springs 43. During this period the arms 31, 38 and 39 will be in the position Shown in Fig. 14 and the motor I6, having started in reverse direction, now assists the manual effort on the hand steering wheel and steering shaft 44 until the effort on the steering wheel stops when the spring 5I will again bring the clutch members 56, 51 on the members 49, 50 into the position shown in Fig. 9 Iand open the circuit between the contact pins C and D and Stop the motor I1.

While I have described my invention above in detail I wish it to be understood that many changes may be made therein without departing from the Spirit of the same. For instance, I can use, instead of the reversible electric motor l1, any other type of electrically driven motor with appropriate connections for driving the gearing forwardly or in the reverse direction, as desired.

I claim:

l. A manually controlled electric power assistor, comprising a manually controlled shaft, an output shaft, a lost motion coupling having relatively movable members, one of said members being secured to the manually controlled shaft and another of said members being slidably connected to said output shaft, yielding means tending to prevent relative movement of said two members, a normally disengaged clutch, having means for engaging the clutch, connected to said manually controlled shaft, said clutch having one clutch member secured to said output shaft and the other clutch member having a reducing gear connected to a reversible electric motor, and an electrical connection for energizing said motor including a switch having a contact connected to the lost motion coupling so as to be movable into closed position by said lost motion coupling when the manually controlled shaft is moved.

2. A manually controlled electric power assister, comprising a manually controlled shaft, a power output shaft, a lost motion coupling having relatively movable members, one of Said members being secured to the manually controlled shaft and the other of said members being slidably connected to said power output shaft, a spring tending to prevent relative movement of said two members, a normally disconnected clutch, having means for engaging the clutch,

connected to said manually controlled shaft, said clutch having one clutch member secured to said powerL output shaft and the other clutch member having a reducing gear connected to a reversible electric motor, an electric circuit for energizing said electric motor and a switch having a contact connected to the lost motion coupling for closing said circuit, and said switch having a contact connected to one of said lost motion coupling members so as to be movable by said manually controlled shaft.

3. A manually controlled electric power assistor, comprising a manually controlled shaft, a power output shaft, a lost motion coupling having relatively movable members, one of said members being secured to the manually controlled shaft and the other of said members being slidably connected to said power output shaft, yielding means tending to hold said two members together, a normally disconnected clutch having one clutch member secured to said power output shaft and the other clutch member having a reducing gear connected to a reversible electric motor, an electric circuit for energizing said motor and a switch for closing said circuit, said clutch having means for engaging the clutch, connected to the manually controlled shaft and said switch having a connection to one of said lost motion coupling members so as to movable by said manually `controlled shaft.

4. A manually controlled electric power assistor, comprising a manually controll shaft, a power output shaft, a lost motion coupling having relatively movable members, one of said members being secured to the manually controlled shaft and the other of said members being slidably connected to said power output shaft, a spring tending to hold said two members together, a normally disengaged clutch having one clutch member secured to said power output shaft and the other member having a speed reducing gear leading to a reversible electric motor, and an electric circuit for energizing said motor including a switch having a connection to one of said lost motion coupling members so as to be movable by said manually controlled shaft.

5. A manually controlled electric power assistor, comprising a manually controlled shaft, a power output shaft, a lost motion coupling having relatively movable members, one of said members being secured to the manually con-4 trolled shaft and the other of said members being slidably connected to said power output shaft, yielding means tending to hold said two members together, a normally disengaged clutch having means for engaging the clutch, connected to said manually controlled shaft, having oneV clutch member secured to said power outputv shaft and the other clutch member having a sister, comprising a manually controlled shaft, a power output shaft, a lost motion coupling having relatively movable members, one of said n members being secured to the manually con; trolled shaft and another of said members being connected to said output shaft, a spring tending to hold said two members togethena normally inactive clutch having means for engaging the clutch, connected to said manually controlled shaft, said clutch having a clutch member secured `tov said `'power loutput shaft, and a speed reducing gear for connecting the clutch to a source of power input.

7. A manually vcontrolled electric power assistor, comprising a manually controlled shaft, a power output shaft, a lost motion coupling having relatively movable members, one lof said members being secured to the 'manually controlled shaft and thev other of said members being connected to vsaid power output shaft, yielding means tending .to prevent relative movement of said two members, a normally inactive clutch having means for 'engaging 'the clutch,

connected to said manually controlled shaft, said clutch having a clutch member secured to said power output shaft, a speedreducing gearrfor connecting the clutch to a ,source of electrical power input, and aswitch mechanism for said source vof electrical power input having a contact connected to one of said coupling members so as to moved by the relative movement of said coupling.

8. A manually controlled electric power steering assistor for motor vehicles, comprising a manually controlled steering shaft, a worm wheel shaft, a clutch having two members, one member being connected to the worm wheel shaft and the other member being connectable to a speed reducing gear for a reversible electric motor, locking means between said two clutch members, electrical connections for said reversible electric motor, including a switch, and a two-member lost motion coupling having connections to said switch and said locking means for said clutch, one of said lost motion coupling members being mounted on said steering shaft and the other member being slidably connected with the worm wheel shaft.

9. A manually controlled electric power assistor, comprising a manually controlled shaft, a power output shaft, a normally disengaged clutch having one member being connected with said power output shaft and the other member being connectable to a speed reducing gear for a reversible electric motor, means for locking said two clutch members together, a plurality of insulated annular electric contact rings connected to move with the manually controlled shaft, stationary brushes connecting said electric motor with said insulated contact rings, an electric circuit for energizing the said mtor, an electric switch in said circuit and connected to said rings for closing said circuit, and a two-member lost motion coupling connected to said switch and said locking means for said clutch member, one member of said lost motion coupling being mounted on the manually controlled shaft and the other member being connected with the power output shaft.

10. A manually controlled electric power assistor, comprising a manually controlled shaft, a power output shaft, a speed reducing gear for a reversible electric motor, a single double acting clutch having spring-pressed automatically releasable locking balls connecting said manually controlled shaft with said reversible electric m0- tor, a plurality of insulated annular contact rin-gs connected to move with the manually controlled shaft, two sets of stationary brushes connecting said electric motor with said insulated annular contact rings, an electric circuit for energizing the said motor to be driven in forward or reverse from either of said two sets of brushes ac- 'cording to the vposition of the manuallycontrolled shaft, an electric switch in said circuit and confnected to said rings for closing said electric cir cuit, and a two-member lost motion coupling for closing said switch to apply power to the output shaft through said clutch when said motor is operative but so as to release rsaid clutch when said electric motor stalls..Y A L 11. A manually controlled electric ,power assistor, including a power output shaft, aspeed reducing gearrfor a rotatable electric motorto drive said vshaft having a couplin'gt'connected` to the power output shaft, a manually controlled shaft, a `clutch having spring-pressed automatigcally releasable locking ballsy connecting said electric motor with said power output shaft when said motor is operative but so as to release` said electric motor when said electric motor stalls, ain electric circuit for energizing said electric-motor including a switchyand means connected withsaid lmanually controlled shaft for closing said electric switch to drive the motor Aby closing said switch and render said clutch operative.

12. A manually controlled electric power assistor, comprising a manually controlled shaft, a power output shaft connected to the manually controlled shaft, connections for a reversible electric motor, a single double acting automatically releasable clutch connecting said power output shaft with said reversible electric motor connections, insulated annular contact rings connected to move with the manually controlled shaft, stationary brushes connecting said electric motor with said insulated annular contact rings, an electric circuit for energizing the said motor, an electric switch in said circuit and connected to said rings for closing said electric circuit, a two member lost motion coupling which connects the manually controlled shaft to the power output shaft including a limit stop for closing said switch to apply power to the output shaft through said clutch when said motor is operative but so as to release said clutch when said electric motor stalls.

13. A manually controlled electric power assistor, including a power output shaft, connections for an intermittently operable reversible electric motor to drive said shaft, a manually controlled shaft having a coupling connected to the power output shaft, a clutch having springpressed automatically releasable locking balls for connecting said electric motor with said power output shaft when said motor is operating but so as to release said electric motor when said electric motor stalls, an `electric circuit for energizing said electric motor including a switch, and means connected with said manually controlled shaft for closing said electric switch to drive the motor by closing said switch and render said clutch operative.

14. A manually controlled electric power assistor comprising a manually controlled shaft, a power output shaft connected to the manually controlled shaft, a speed reducing gear for a reversible electric motor, a single clutch having a ball clutch engaging mechanism connecting said power output shaft with said speed reducing gear, a two member lost motion coupling, one member being secured to the power output shaft, and the other member to the manual control shaft, said ball clutch engaging mechanism having a connection operated by said lost motion coupling to engage said clutch only when said speed reducing gear is in motion.

15. In an electric power steering assistor for n motor vehicles a manually operable steering l1 shaft, a manual and power output shaft connected to the first mentioned shaft, a single nor mally released clutch requiring assister followup power to engage the same, connections for an intermittently operable reversible electric motor for driving said output shaft in either direction through said manual and power clutch, an electric switch mechanism connected to energize said electric motor, a lost motion coupling, one member of said coupling being connected to said manually operable steering shaft for engaging said clutch and the other member being connected to the manual and power output shaft, and cooperating with said electric switch to operate said electric motor when assister power is required, and a spring for holding said two members of said coupling in inactive position for normal manual steering when the power is not required. i

16.An electric power steering assister comprising, a manually operable steering shaft, a manual and power output shaft, connections for an intermittently operable reversible electric motor with said manual and power output shaft including a clutch, a plurality of electric switches for controlling said intermittently operable reversible electric motor including an electric wire circuit, a lost motion coupling connecting said manually operable steering shaft with said manual power output shaft, and means associated with said lost motion coupling for operating said switches and said clutch by dilerent motions of said steering shaft.

EDWIN G. STAUDE.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 1,122,794 Nelson Dec. 29, 1914 2,311,010 Vickers Feb. 16, 1943 

